Examples of 'catalyst performance' in a sentence
Meaning of "catalyst performance"
This phrase refers to the effectiveness or efficiency of a catalyst. A catalyst is a substance that increases the rate of chemical reactions without itself being consumed. The phrase implies evaluating or measuring how well a catalyst performs its intended function in facilitating or speeding up a chemical reaction
How to use "catalyst performance" in a sentence
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catalyst performance
Catalyst performance was evaluated in two ways.
No significant change in catalyst performance can be seen.
Thus catalyst performance was maintained upon regeneration.
Significant testing has been performed to improve catalyst performance.
A catalyst performance test was done using the lower catalyst only.
This parameter provides a useful measure of catalyst performance.
The catalyst performance was stable.
We present an analysis of the catalyst performance.
A catalyst performance test using the lower catalyst layer was done.
There is no limitation from the viewpoint of catalyst performance.
Phosphorous negatively affects catalyst performance by blocking the catalytic sites.
Value of better characterization of metal nanoparticles to enhance catalyst performance.
Monitoring of catalyst performance.
A reduction in the electronegativity can improve the catalyst performance.
Such stable catalyst performance may result in higher productivity of a desired product.
See also
This was to confirm catalyst performance.
The presence of polyoxymetallate species in such amounts should only mildly affect the catalyst performance.
The prepolymerization improves the catalyst performance as well as the polymer morphology.
Any excess of oxygen results in a severe deterioration of the catalyst performance.
This was followed by a catalyst performance test using the lower catalyst only.
Zinc oxide or zinc acetate dihydrate was added to improve catalyst performance.
These properties are often manifested in catalyst performance as selectivity and activity enhancements or inhibitions.
It shows the beneficial effect of very high levels of manganese on catalyst performance.
Another factor which contributes to catalyst performance is the overall electronegativity of the zeolite.
Note that resistance to steam deactivation is important for catalyst performance and life.
The effect of pressure on catalyst performance was carried out after this activation process.
Such solvents and atmospheres are chosen to allow the most desirable catalyst performance.
Prepolymerization improves both the catalyst performance and the morphology of the polymers.
Inert gases dilute the feed and may help to improve catalyst performance.
Specific catalyst performance characteristics are presented in Table III.
The drawback of high calcination temperatures is that the catalyst performance is adversely affected.
Catalyst performance and physical properties are given in Table A.
It is possible that adjusting the calcium level further could improve catalyst performance.
The propylene concentrations will be determined by catalyst performance and by commercial cost effectiveness factors.
The quality of the applied zirconia is very important for the total catalyst performance.
On-oil catalyst performance for each catalyst is also shown in the table.
This is an accelerated test which provides a good correlation with catalyst performance in commercial aromatisation.
Data on the catalyst performance are presented in Table 1.
These treatments have been reported to marginally improve reformer bifunctional alumina based acidic catalyst performance.
However, the conclusions with respect to catalyst performance are consistent.
However, those processes employ relatively severe reaction conditions and / or suffer from unsatisfactory catalyst performance.
The following table compares the catalyst performance of the above-described catalysts.
For sulfur-sensitive catalysts, sulfur contamination leads to decreased catalyst performance.
Table 2 shows the resulting catalyst performance following these steady-state ageing conditions.
Some substituents can help and other substituents can hurt the catalyst performance of a cyclic amidine.
Catalyst performance at this conversion level is shown in Table 1.
It was checked that both procedures lead to identical catalyst performance in terms of e . g.
Catalyst performance and polymer properties are tabulated in Table 6.
Under these particular conditions, minimal changes in catalyst performance were observed.
Data on the catalyst performance at propylene polymerization are presented in Table 1.
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